mirror of
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331 lines
9.6 KiB
C++
331 lines
9.6 KiB
C++
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// Copyright (c) 2013 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "net/dns/record_rdata.h"
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#include <numeric>
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#include "base/big_endian.h"
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#include "net/dns/dns_protocol.h"
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#include "net/dns/dns_response.h"
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namespace net {
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static const size_t kSrvRecordMinimumSize = 6;
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RecordRdata::RecordRdata() = default;
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SrvRecordRdata::SrvRecordRdata() : priority_(0), weight_(0), port_(0) {
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}
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SrvRecordRdata::~SrvRecordRdata() = default;
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// static
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std::unique_ptr<SrvRecordRdata> SrvRecordRdata::Create(
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const base::StringPiece& data,
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const DnsRecordParser& parser) {
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if (data.size() < kSrvRecordMinimumSize)
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return std::unique_ptr<SrvRecordRdata>();
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std::unique_ptr<SrvRecordRdata> rdata(new SrvRecordRdata);
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base::BigEndianReader reader(data.data(), data.size());
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// 2 bytes for priority, 2 bytes for weight, 2 bytes for port.
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reader.ReadU16(&rdata->priority_);
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reader.ReadU16(&rdata->weight_);
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reader.ReadU16(&rdata->port_);
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if (!parser.ReadName(data.substr(kSrvRecordMinimumSize).begin(),
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&rdata->target_))
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return std::unique_ptr<SrvRecordRdata>();
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return rdata;
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}
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uint16_t SrvRecordRdata::Type() const {
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return SrvRecordRdata::kType;
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}
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bool SrvRecordRdata::IsEqual(const RecordRdata* other) const {
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if (other->Type() != Type()) return false;
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const SrvRecordRdata* srv_other = static_cast<const SrvRecordRdata*>(other);
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return weight_ == srv_other->weight_ &&
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port_ == srv_other->port_ &&
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priority_ == srv_other->priority_ &&
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target_ == srv_other->target_;
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}
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ARecordRdata::ARecordRdata() = default;
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ARecordRdata::~ARecordRdata() = default;
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// static
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std::unique_ptr<ARecordRdata> ARecordRdata::Create(
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const base::StringPiece& data,
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const DnsRecordParser& parser) {
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if (data.size() != IPAddress::kIPv4AddressSize)
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return std::unique_ptr<ARecordRdata>();
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std::unique_ptr<ARecordRdata> rdata(new ARecordRdata);
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rdata->address_ =
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IPAddress(reinterpret_cast<const uint8_t*>(data.data()), data.length());
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return rdata;
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}
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uint16_t ARecordRdata::Type() const {
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return ARecordRdata::kType;
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}
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bool ARecordRdata::IsEqual(const RecordRdata* other) const {
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if (other->Type() != Type()) return false;
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const ARecordRdata* a_other = static_cast<const ARecordRdata*>(other);
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return address_ == a_other->address_;
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}
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AAAARecordRdata::AAAARecordRdata() = default;
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AAAARecordRdata::~AAAARecordRdata() = default;
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// static
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std::unique_ptr<AAAARecordRdata> AAAARecordRdata::Create(
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const base::StringPiece& data,
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const DnsRecordParser& parser) {
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if (data.size() != IPAddress::kIPv6AddressSize)
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return std::unique_ptr<AAAARecordRdata>();
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std::unique_ptr<AAAARecordRdata> rdata(new AAAARecordRdata);
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rdata->address_ =
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IPAddress(reinterpret_cast<const uint8_t*>(data.data()), data.length());
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return rdata;
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}
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uint16_t AAAARecordRdata::Type() const {
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return AAAARecordRdata::kType;
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}
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bool AAAARecordRdata::IsEqual(const RecordRdata* other) const {
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if (other->Type() != Type()) return false;
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const AAAARecordRdata* a_other = static_cast<const AAAARecordRdata*>(other);
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return address_ == a_other->address_;
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}
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CnameRecordRdata::CnameRecordRdata() = default;
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CnameRecordRdata::~CnameRecordRdata() = default;
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// static
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std::unique_ptr<CnameRecordRdata> CnameRecordRdata::Create(
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const base::StringPiece& data,
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const DnsRecordParser& parser) {
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std::unique_ptr<CnameRecordRdata> rdata(new CnameRecordRdata);
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if (!parser.ReadName(data.begin(), &rdata->cname_))
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return std::unique_ptr<CnameRecordRdata>();
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return rdata;
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}
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uint16_t CnameRecordRdata::Type() const {
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return CnameRecordRdata::kType;
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}
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bool CnameRecordRdata::IsEqual(const RecordRdata* other) const {
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if (other->Type() != Type()) return false;
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const CnameRecordRdata* cname_other =
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static_cast<const CnameRecordRdata*>(other);
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return cname_ == cname_other->cname_;
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}
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PtrRecordRdata::PtrRecordRdata() = default;
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PtrRecordRdata::~PtrRecordRdata() = default;
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// static
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std::unique_ptr<PtrRecordRdata> PtrRecordRdata::Create(
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const base::StringPiece& data,
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const DnsRecordParser& parser) {
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std::unique_ptr<PtrRecordRdata> rdata(new PtrRecordRdata);
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if (!parser.ReadName(data.begin(), &rdata->ptrdomain_))
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return std::unique_ptr<PtrRecordRdata>();
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return rdata;
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}
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uint16_t PtrRecordRdata::Type() const {
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return PtrRecordRdata::kType;
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}
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bool PtrRecordRdata::IsEqual(const RecordRdata* other) const {
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if (other->Type() != Type()) return false;
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const PtrRecordRdata* ptr_other = static_cast<const PtrRecordRdata*>(other);
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return ptrdomain_ == ptr_other->ptrdomain_;
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}
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TxtRecordRdata::TxtRecordRdata() = default;
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TxtRecordRdata::~TxtRecordRdata() = default;
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// static
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std::unique_ptr<TxtRecordRdata> TxtRecordRdata::Create(
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const base::StringPiece& data,
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const DnsRecordParser& parser) {
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std::unique_ptr<TxtRecordRdata> rdata(new TxtRecordRdata);
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for (size_t i = 0; i < data.size(); ) {
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uint8_t length = data[i];
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if (i + length >= data.size())
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return std::unique_ptr<TxtRecordRdata>();
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rdata->texts_.push_back(data.substr(i + 1, length).as_string());
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// Move to the next string.
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i += length + 1;
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}
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return rdata;
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}
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uint16_t TxtRecordRdata::Type() const {
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return TxtRecordRdata::kType;
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}
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bool TxtRecordRdata::IsEqual(const RecordRdata* other) const {
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if (other->Type() != Type()) return false;
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const TxtRecordRdata* txt_other = static_cast<const TxtRecordRdata*>(other);
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return texts_ == txt_other->texts_;
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}
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NsecRecordRdata::NsecRecordRdata() = default;
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NsecRecordRdata::~NsecRecordRdata() = default;
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// static
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std::unique_ptr<NsecRecordRdata> NsecRecordRdata::Create(
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const base::StringPiece& data,
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const DnsRecordParser& parser) {
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std::unique_ptr<NsecRecordRdata> rdata(new NsecRecordRdata);
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// Read the "next domain". This part for the NSEC record format is
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// ignored for mDNS, since it has no semantic meaning.
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unsigned next_domain_length = parser.ReadName(data.data(), NULL);
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// If we did not succeed in getting the next domain or the data length
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// is too short for reading the bitmap header, return.
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if (next_domain_length == 0 || data.length() < next_domain_length + 2)
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return std::unique_ptr<NsecRecordRdata>();
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struct BitmapHeader {
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uint8_t block_number; // The block number should be zero.
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uint8_t length; // Bitmap length in bytes. Between 1 and 32.
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};
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const BitmapHeader* header = reinterpret_cast<const BitmapHeader*>(
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data.data() + next_domain_length);
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// The block number must be zero in mDns-specific NSEC records. The bitmap
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// length must be between 1 and 32.
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if (header->block_number != 0 || header->length == 0 || header->length > 32)
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return std::unique_ptr<NsecRecordRdata>();
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base::StringPiece bitmap_data = data.substr(next_domain_length + 2);
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// Since we may only have one block, the data length must be exactly equal to
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// the domain length plus bitmap size.
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if (bitmap_data.length() != header->length)
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return std::unique_ptr<NsecRecordRdata>();
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rdata->bitmap_.insert(rdata->bitmap_.begin(),
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bitmap_data.begin(),
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bitmap_data.end());
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return rdata;
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}
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uint16_t NsecRecordRdata::Type() const {
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return NsecRecordRdata::kType;
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}
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bool NsecRecordRdata::IsEqual(const RecordRdata* other) const {
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if (other->Type() != Type())
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return false;
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const NsecRecordRdata* nsec_other =
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static_cast<const NsecRecordRdata*>(other);
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return bitmap_ == nsec_other->bitmap_;
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}
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bool NsecRecordRdata::GetBit(unsigned i) const {
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unsigned byte_num = i/8;
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if (bitmap_.size() < byte_num + 1)
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return false;
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unsigned bit_num = 7 - i % 8;
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return (bitmap_[byte_num] & (1 << bit_num)) != 0;
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}
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OptRecordRdata::OptRecordRdata() = default;
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OptRecordRdata::~OptRecordRdata() = default;
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// static
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std::unique_ptr<OptRecordRdata> OptRecordRdata::Create(
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const base::StringPiece& data,
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const DnsRecordParser& parser) {
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std::unique_ptr<OptRecordRdata> rdata(new OptRecordRdata);
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rdata->buf_.assign(data.begin(), data.end());
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base::BigEndianReader reader(data.data(), data.size());
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while (reader.remaining() > 0) {
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uint16_t opt_code, opt_data_size;
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base::StringPiece opt_data;
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if (!(reader.ReadU16(&opt_code) && reader.ReadU16(&opt_data_size) &&
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reader.ReadPiece(&opt_data, opt_data_size))) {
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return std::unique_ptr<OptRecordRdata>();
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}
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rdata->opts_.push_back(Opt(opt_code, opt_data));
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}
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return rdata;
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}
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uint16_t OptRecordRdata::Type() const {
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return OptRecordRdata::kType;
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}
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bool OptRecordRdata::IsEqual(const RecordRdata* other) const {
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if (other->Type() != Type())
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return false;
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const OptRecordRdata* opt_other = static_cast<const OptRecordRdata*>(other);
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return opt_other->opts_ == opts_;
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}
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void OptRecordRdata::AddOpt(const Opt& opt) {
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base::StringPiece opt_data = opt.data();
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// Resize buffer to accommodate new OPT.
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const size_t orig_rdata_size = buf_.size();
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buf_.resize(orig_rdata_size + Opt::kHeaderSize + opt_data.size());
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// Start writing from the end of the existing rdata.
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base::BigEndianWriter writer(buf_.data() + orig_rdata_size, buf_.size());
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bool success = writer.WriteU16(opt.code()) &&
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writer.WriteU16(opt_data.size()) &&
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writer.WriteBytes(opt_data.data(), opt_data.size());
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DCHECK(success);
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opts_.push_back(opt);
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}
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OptRecordRdata::Opt::Opt(uint16_t code, base::StringPiece data) : code_(code) {
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data.CopyToString(&data_);
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}
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bool OptRecordRdata::Opt::operator==(const OptRecordRdata::Opt& other) const {
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return code_ == other.code_ && data_ == other.data_;
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}
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} // namespace net
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